🦑
This
TiddlyWiki
contains the following tiddlers:
$:/build
$:/config/ChinesePluginLibrary
$:/config/Manager/Sort
$:/config/Navigation/openLinkFromInsideRiver
$:/config/Navigation/openLinkFromOutsideRiver
$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/advanced-search
$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/fold-all
$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/home
$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/import
$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/language
$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/manager
$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/new-image
$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/new-journal
$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/tag-manager
$:/config/PageControlButtons/Visibility/$:/core/ui/Buttons/theme
$:/core
$:/favicon.ico
$:/GitHub/Filename
$:/GitHub/Path
$:/GitHub/Repo
$:/GitHub/Username
$:/Import
$:/isEncrypted
$:/language
$:/languages/zh-Hans
$:/palette
$:/plugins/felixhayashi/tiddlymap
$:/plugins/felixhayashi/tiddlymap/graph/nodeTypes/tmap:central-topic
$:/plugins/felixhayashi/tiddlymap/graph/nodeTypes/tmap:neighbour
$:/plugins/felixhayashi/tiddlymap/graph/views/Default
$:/plugins/felixhayashi/tiddlymap/graph/views/Default/filter/edges
$:/plugins/felixhayashi/tiddlymap/graph/views/Default/filter/nodes
$:/plugins/felixhayashi/tiddlymap/graph/views/Default/map
$:/plugins/felixhayashi/tiddlymap/graph/views/Live View
$:/plugins/felixhayashi/tiddlymap/graph/views/Live View/filter/edges
$:/plugins/felixhayashi/tiddlymap/misc/meta
$:/plugins/felixhayashi/vis
$:/plugins/Gk0Wk/echarts
$:/plugins/Gk0Wk/focused-tiddler
$:/plugins/kookma/refnotes
$:/plugins/oflg/fishing
$:/plugins/oflg/fishing-analysis
$:/plugins/oflg/fishing-cannedfish
$:/plugins/oflg/fishing-catchfish
$:/plugins/oflg/fishing-twpub
$:/plugins/oflg/fishing-zh-Hans
$:/plugins/tesseract/CleverNote
$:/plugins/tiddlywiki/bibtex
$:/plugins/tiddlywiki/dynannotate
$:/plugins/tiddlywiki/dynaview
$:/plugins/tiddlywiki/highlight
$:/plugins/tiddlywiki/katex
$:/plugins/tiddlywiki/markdown
$:/plugins/tiddlywiki/qrcode
$:/SiteSubtitle
$:/SiteTitle
$:/SplashScreen
$:/state/add-plugin-info/$:/temp/ServerConnection/https://tiddly-gittly.github.io/TiddlyWiki-CPL/library/index.html/$:/temp/RemoteAssetInfo/https://tiddly-gittly.github.io/TiddlyWiki-CPL/library/index.html/$:/themes/jd/Alone
$:/state/add-plugin-info/$:/temp/ServerConnection/https://tiddlywiki.com/library/v5.2.7/index.html/$:/temp/RemoteAssetInfo/https://tiddlywiki.com/library/v5.2.7/index.html/$:/plugins/tiddlywiki/blog
$:/state/add-plugin-info/$:/temp/ServerConnection/https://tiddlywiki.com/library/v5.2.7/index.html/$:/temp/RemoteAssetInfo/https://tiddlywiki.com/library/v5.2.7/index.html/$:/plugins/tiddlywiki/classictools
$:/state/add-plugin-info/$:/temp/ServerConnection/https://tiddlywiki.com/library/v5.2.7/index.html/$:/temp/RemoteAssetInfo/https://tiddlywiki.com/library/v5.2.7/index.html/$:/plugins/tiddlywiki/codemirror
$:/state/addplugins/tab-1342078386
$:/state/advancedsearch/currentTab
$:/state/header-searchbar
$:/state/plugin-info--1098123512-$:/plugins/kookma/refnotes---627628908
$:/state/plugin-info--700587726-$:/plugins/kookma/refnotes
$:/state/showeditpreview
$:/state/sidebar
$:/state/tab--1498284803
$:/state/tab--275431847
$:/state/tab--639260661
$:/state/tab--86143343
$:/state/tab-1749438307
$:/state/tab/moresidebar-1850697562
$:/state/tab/sidebar--595412856
$:/state/tab/sidebar-1845994331
$:/status/RequireReloadDueToPluginChange
$:/StoryList
$:/theme
$:/themes/jd/Material
$:/themes/jd/Material/ConfigDB
$:/themes/tg/emphasized
$:/themes/tiddlywiki/centralised
$:/themes/tiddlywiki/snowwhite
$:/themes/tiddlywiki/vanilla
$:/themes/tiddlywiki/vanilla/options/sidebarlayout
2023年05月25日
28th May 2023
a.m_age-related_2008
aaltonen_effects_2017
aber_extrapolating_1996
abram_connections_2021
ackerman_global_2018
ackerman_global_2019
acosta_soil_2013
adams_experimental_2015
adkins_soil_2019
alam_effects_2017
albiero-junior_what_2019
alekseychik_carbon_2021
alemdag_evaluation_1978
ali_big-trees_2020
allan_crop_1998
allevato_canopy_2019-1
allison_microbial_2008
allison_nitrogen_2007
allison_nitrogen_2010
alm_carbon_1999
alton_reconciling_2014
ammer_diversity_2019
anav_spatiotemporal_2015
anderegg_climate-driven_2020
anderegg_divergent_2020
anderegg_drought_2016
anderegg_droughts_2013
anderegg_hydraulic_2018
anderegg_pervasive_2015
andrade_growth_2019
anthoni_forest_2004
arain_net_2005
arain_soilplant_2006
arco_molina_variations_2019
arneth_water_2006
aronson_greenhouse_2019
astigarraga_evidence_2020
au_demographic_2020
aubinet_inter-annual_2018
aubinet_long_2001
aubinet_nighttime_2012
augspurger_reconstructing_2013
augspurger_spring_2009
augustaitis_tree-ring_2018
aussenac_interactions_2019
babst_500_2012
babst_twentieth_2019
badgley_terrestrial_2019
baldocchi_physics_2019
baldocchi_predicting_2005
ballantyne_accelerating_2017
ballantyne_increase_2012
bao_autumn_2021
bao_environment-sensitivity_2022
barber_reduced_2000
barr_inter-annual_2004
barr_intercomparison_2001
bascietto_assessing_2018
bastos_direct_2020
bates_fitting_2015
bates_juliastatsmixedmodelsjl_2020
battipaglia_long_2015
baumbach_impacts_2017
baumgarten_no_2023
beer_temporal_2009
beer_terrestrial_2010
bella_new_1971
bellasio_stomatal_2018
bello_how_2019
belyazid_water_2019
ben-ari_causes_2018
benomar_tree_2022
berbigier_co2_2001
berger_impact_2019
berkelhammer_seasonal_2020
bernhofer_spruce_2003
besnard_memory_2019
besnard_quantifying_2018
bezanson_julia_2017
bhuyan_different_2017
bhuyan_exploring_2017
bhuyan-erhardt_validation_2019
bi_global_2022
biging_comparison_1992
bigler_daily_2019
bigler_drought_2007
bindoff_chapter_2013
bitterlich_winkelzahlprobe_1952
blackman_leaf_2009
bogdziewicz_is_2020
boisvenue_information_2019
bonal_impact_2008
bonan_forests_2008
booth_high_2012
bouten_effects_1995
bowden_chronic_2004
boyce_what_nodate
bradford_carbon_2013
bradford_robust_2020
bradshaw_global_2015
brais_wood_2015
brando_droughts_2019
breda_are_2019
breda_temperate_2006
breiman_random_2001
brodribb_hanging_2020
brodribb_stomatal_2004
brokaw_niche_2000
brotherton_immediate_2019
brunn_carbon_nodate
bucci_dynamic_2003
buermann_recent_2014
buermann_widespread_2018
buma_emergent_2019
buotte_nearfuture_2019
butnor_reduction_2003
cai_recent_2020
calama_linking_2019
calfapietra_challenges_2010
cambui_patterns_2011
canadell_maximum_1996
carrascal_partial_2009
carrillo-rojas_breathing_2019
cartwright_topographic_2020
chai_carbon_2019
chamagne_forest_2017
chamberlain_climate_2021
chamberlain_effect_2020
chamberlain_rethinking_2019
chapin_arctic_2000
chapin_iii_principles_2011
charney_observed_2016
charrier_drought_nodate
charrier_interaction_2021
chaste_increases_2019
chen_annual_2000
chen_contributions_2018
chen_diurnal_2019
chen_ecosystem_2018
chen_immediate_2023-1
chen_impact_2019
chen_magnitude_2019
chen_remote-sensing_2019
chen_spring_2018
chen_vegetation_2019
cheng_nitrogen_2019
cheng_photosynthesis_2000
chi_carbon_2019
chi_forest_2021
chiesi_modelling_2005
chirici_estimating_2016
choat_triggers_2018
choat_xylem_2011
choi_impact_2017
christian_global_2021
christian_methodology_2019
ciais_europe-wide_2005
ciais_five_2019
collalti_sensitivity_2019
conn_using_2015
cook_carbon_2004
cook_using_2008
cosofret_management_2022
costa_biome_2018
couwenberg_greenhouse_2010
crimmins_changes_2011
croft_seasonal_2015
curtis_forest_2018
dalponte_characterizing_2019
dan-dan_plant_2017
dandrea_frost_2020
dandrea_unravelling_2021
dandrea_winters_2019
david-schwartz_pine_2023
davidson_photosynthetic_2004
davidson_synergy_2018
davies1979cluster
davis_annual_2003
de_grandpre_adverse_2019
de_vries_short_2014
deforest_phenophases_2006
delgadobalbuena_seasonal_nodate
delpierre_wood_2016
delucia_forest_2007
demoling_bacterial_2008
deng_divergent_2023
deng_drought_2021
desai_comparing_2005
deshmukh_impact_2020
deslauriers_cold_2021
desoto_low_2020
di_francescantonio_drought_2020-1
dieleman_simple_2012
dinsmore_effect_2009
dittmar_impact_2006
dittmar_phenological_2006
domec_acclimation_2009
domec_variable_2010
dominguez-eusebio_surface_2019
dong_inter-comparisons_2022
doradolinan_geographical_2019
dosio_bias_2011
Draft of '新条目'
drake_increases_2011
drake_trenching_2012
drollinger_interannual_2019
du_interacting_2019
du_mapping_2018
duan_carbon_2013
dulamsuren_drought_2021
dunn_long-term_2007
dusenge_plant_2019
duursma_contributions_2009
duursma_rooting_2011
dy_frost_2007
dye_comparing_2016
dynarski_dynamic_2020
dziedek_nitrogen_2016
eamus_photosynthetic_1991
eckhart_forest_2019
eklof_brownification_2021
el-madany_drought_2020
ellsworth_elevated_2012
ensminger_photostasis_2006
epron_effects_1992
eugster_methodical_2007
evans_fusing_2017
evans_overriding_2021
evaristo_global_2019
fabrika_forest_2013
fan_global_2022
fang_influence_2018
farrior_decreased_2015
fatichi_modelling_2019
fei_patterns_2019
feigenwinter_eddy_2012
feild_stem_2000
felton_semiarid_2019
fernandez-martinez_atmospheric_2017
fernandez-martinez_global_2019
fewster_imminent_2022
finzi_increases_2007
finzi_progressive_2006
fisher_influence_2016
FLEXAS201270
foken_corrections_2012
foken_eddy_2012
footen_long-term_2009
forzieri_emerging_2022
foster_global_2011
fox_r_2019
frank_ecosystem_2014
frank_effects_2015
frank_ensemble_2010
frank_water-use_2015
frankow-lindberg_adaptation_2001
friedlingstein_global_2019
friedlingstein_global_2022
fu_atmospheric_2022
fu_critical_2022
fu_maximum_2019
fu_recovery_2017
fu_sensitivity_2020
fu_variation_2014
gao_response_2016
garbulsky_remote_2008
garcia-forner_isohydric_2017
garcia-llamas_environmental_2019
garcia-valdes_low_2021
gatti_drought_2014
gazol_forest_2018
gazol_impacts_2017
gazol_summer_2019
ge_underestimated_2019
gea-izquierdo_modeling_2010
gerling_eddy_2019
gessler_role_2017
GettingStarted
giguere-croteau_north_2019
gillespie_higher_2020
gilmanov_gross_2003
girardin_no_2016
gitelson_relationship_2006
gitelson_relationships_2014
Glossary
gobel_role_2019
goldstein_random_2011
gonsamo_peak_2018
gonzalez_forest_2010
gorelick_google_2017
gough_multi-year_2008
goulden_california_2019
gourlez_de_la_motte_non-stomatal_2020
grabowski_coupling_2019
grace_structural_2006
granath_nitrogen_2017
granato-souza_tree_2019
granier_evidence_2007
greco_late_2018
green_limits_2022
grennfelt_effects_1986
griscom_natural_2017
groenendijk_assessing_2011
grossiord_plant_2020
grossiord_plant_2020-1
guarin_drought_2005
gunawardhana_evapotranspiration_2021
gundale_anthropogenic_2014
guo_forest_2022
guo_responses_2019
gutierrez_lopez_how_2021
haei_carbon_2015
hajima_uncertainty_2014
hakansson_effects_2021
hammond_global_2022
han_solving_2018
hanninen_boreal_2016
hanninen_climate_2006
hanninen_does_1991
hararuk_tree_2019
harel_fine_2023
hartmann_research_2018
hartmann_understanding_2016
hasanuzzaman_physiological_2013
hasselquist_contrasting_2012
Have fun with
haverd_higher_2020
he_drought_2021
he_nitrogen_2016
head_forestry_2019
hedwall_interactions_2021
hefley_basis_2017
hegyi_simulation_1974
helbig_biophysical_2020
helbig_increasing_2020
helbig_increasing_2020-1
helman_biophysical_2017
henne_did_2011
henry_stomatal_2019
hiemstra_real-time_2009
hilton_peak_2017
hobbie_synthesis_2002
hoek_van_dijke_shifts_2022
hoffmann_rare_2019
hogberg_tree_2006
holmberg_ecosystem_2019
holmes_partial_1994
hong_impact_2011
houborg_satellite_2013
houle_major_2016
howell_relationships_1990
https://doi.org/10.18160/yvr0-4898
hu_joint_2018
hu_responses_2019
huang_air_2019
huang_does_2017
huang_drought_2018
huang_effects_2013
huang_enhanced_2018
huang_global_2019
huang_high_2019
huang_tipping_2015
hudson_modeling_1994
hui_partitioning_2003
hyvonen_impact_2008
hyvonen_likely_2007
ibanez_anthropogenic_2018
ide_assessment_2010
Import Bibtex
inselsbacher_early_2014
IPCC_2022_WGII
isaac-renton_northern_2018
janssens_reduction_2010
jarveoja_bimodal_2020
jassal_soil_2010
jenkins_refining_2007
jensen_simulated_2019
jia_deepened_nodate
jia_responses_2018
jian_global_2022
jiang_enhanced_2019
jiang_fate_2020
jiang_interspecific_2018
jiang_linking_2019
jiao_assessing_2019
jiao_comprehensive_2022
jin_concurrent_2020
jocher_impact_2018
johnstone_changing_2016
jones_impact_2020
jorgensen_forest_2021
jorgensen_links_2022
joseph_effects_2021
jourdan_effect_2019
jourdan_how_2020
julio_camarero_forest_2018
jung_scaling_2020
junninen_methods_2004
Kallio2013
kannenberg_hot_2020
kannenberg_linking_2019
karila_tandem-x_2019
kasurinen_latent_2014
kath_remotely_2019
katul_leaf_2009
katul_stomatal_2010
kauwe_where_2014
kaye_competition_1997
keenan_increase_2013
keenan_net_2014
keenan_terrestrial_2012
kharin_risks_2018
khoury_resilience_2020
kicklighter_future_2019
kim_dynamics_2017
kim_response_2016
king_model_1998
kinoshita_carbon:_1988
klesse_combined_2018
klesse_integrating_2016
kljun_response_2006
knauer_bigleafr_2018
knauer_response_2017
knauer_tutorial_nodate
knohl_large_2003
knorre_tree_2019
knowles_evidence_2019
kobler_effects_2019
kolari_co2_nodate
kolari_relationship_2007
kolb_extreme_2013
kolus_land_2019
korner_carbon_2003
korner_plant_2006
kou_peatland_2022
krasnova_carbon_2019
krasnova_eddy-covariance_2022
krasnova_hemiboreal_2022
krause_photoinhibition_1988
krofcheck_effects_2019
krofcheck_effects_2019-1
kruger_drought_2021
kruijt_effects_2008
kuha2004aic
kuhn_building_2008
kulmala_inter-_2019
kumar_atmospheric_2017
kunert_understanding_2019
kurbatova_modeling_2008
kurjak_variation_2019
kuznetsova_lmertest_2017
lagergren_time_2019
laginha_pinto_correia_disentangling_2019
lamichhane_rising_2021
landsberg_generalised_1997
lang_new_2019
larson_changing_2021
launiainen_does_2022
launiainen_seasonal_2010
laurila_eddy_2012
lavergne_observed_2019
law_carbon_2001
law_disturbance_2004
law_environmental_2002
lawrence_ongoing_2021
lay2016linear
le_quere_trends_2009
lebourgeois_sensitivity_2010
lee_long-term_2020
lee_resilience_2021
lefcheck_piecewisesem_2016
lenz_european_2013
leuning_carbon_2005
leuning_leaf_1988
leuzinger_responses_2005
levesque_drought_2013
levesque_tree-ring_2019
li_decipher_2022
li_diagnosing_2021
li_different_2022
li_ecological_2019
li_ecostress_2021
li_effects_2020
li_estimating_2018
li_global_2023
li_impact_2019
li_interactive_2018
li_leaf_2018
li_leaf_2018-1
li_minimum_2020
li_nitrogen_2019
li_nitrogen_2020
li_phenology_2023
li_quantifying_2019
li_response_2021
li_responses_2021
li_temporal_2020
lian_saturation_2023
lian_seasonal_2021
lian_summer_2020
liang_forest_2019
liang_global_2020
liang_simulation_2018
lim_boreal_2019
lim_inter-annual_2015
lin_carbon_nodate
lindholm_effect_1981
lindroth_long-term_1998
litton_carbon_2007
litvak_effect_2003
liu_deciphering_2019
liu_decoupled_2020
liu_differentiated_2019
liu_divergent_2019
liu_ecological_2019
liu_effects_2020
liu_evaluating_2016
liu_extension_2018
liu_importance_2022
liu_long-term_2021
liu_precipitation_2018
liu_recent_2015
liu_response_2018
liu_responses_2019
liu_review_2009
liu_soil_2018
liu_tropical_2022
liu_use_2019
liu_water_2019
liu_weak_2021
lloret_non-structural_2018
lockwood_is_1999
lohmus_elevated_2019
long_abundance_2012
long_rising_2004
longdoz_eddy_2012
looney_interspecific_2018
lovett_nitrogen_2013
lu_nitrogen_2021
ludecke_describe_2020
luo_forest_2022
luo_global_2020
luo_improved_2019
luo_nutrients_2020
lyu_drought_2019
ma_divergent_2019
ma_global_2021
ma_nitrogen_2023
ma_regional_2012
maaroufi_anthropogenic_2015
maes_environmental_2019
maes_litter_2019
magill_ecosystem_2004
magnani_human_2007
makarieva_role_2023
makela_developing_2008
makila_aapa_2001
makipaa_effect_1995
makipaa_effects_1998
maljanen_greenhouse_2010
maljanen_methane_2006
mamkin_energy_2019
mangani_potential_2019
manzoni_reviews_2018
marchand_spatial_2006
marcolla_canopy_2003
marquis_declines_2019
marquis_growingseason_2020-1
marshall_components_nodate
martin_comparison_1984
martin_control_1977
martinez_del_castillo_modeling_2019
marvin_branchfall_2016
massicotte_global_2017
matisons_plasticity_2019
mazza_climatic_2020
mccarthy_canopy_2006
mccarthy_interaction_2006
mccarthy_re-assessment_2010
mccarthy_temporal_2007
mccaughey_carbon_2006
mcdowell_interdependence_2011
mcdowell_mechanisms_2008
mcnicol_where_2020
mcpartland_response_2019
medlyn_using_2015
medvigy_effects_2013
mekonnen_expansion_2019
mencuccini_temporal_2014
meng_spatial_nodate
menzel_patterns_2015
mercado_large_2018
metcalfe_effects_2013
metcalfe_effects_2019
metsaranta_evaluation_2016
metsaranta_long-term_2019
meyer-jacob_browning_2019
migliavacca_three_2021
ming_effects_2018
miralles_global_2011
mitchard_tropical_2018
moldan_experimental_2018
monson_carbon_2002
montagnani_new_2009
monteith_evaporation_1965
moors_water_2012
moureaux_eddy_2012
muffler_distribution_2016
muiruri_forest_2019
muller_drought_2022
munger_measurement_2012
murdiyarso_opportunities_2010
murphy_semeff_2021
murray-tortarolo_impact_2019
musavi_imprint_2015
musavi_stand_2017
nadelhoffer_nitrogen_1999
nagy_footprint-adjusted_2006
nakagawa_general_2013
nams_effects_1993
nardini_rooting_2016
nehrbass-ahles_influence_2014
nelson_ecosystem_2020
ney_co2_2019
nicklen_stand_2019
nielsen_increase_2022
niu_seasonal_2011
noauthor_addon_nodate
noauthor_claudiavonbromssentrend-screening_nodate
noauthor_co2_nodate
noauthor_decadal_nodate
noauthor_decreased_nodate
noauthor_effects_nodate
noauthor_effects_nodate-1
noauthor_error_nodate
noauthor_error_nodate-1
noauthor_error_nodate-2
noauthor_error_nodate-3
noauthor_error_nodate-4
noauthor_error_nodate-5
noauthor_error_nodate-6
noauthor_error_nodate-7
noauthor_error_nodate-8
noauthor_error_nodate-9
noauthor_evaluation_nodate
noauthor_exposure_nodate
noauthor_factors_nodate
noauthor_figure_nodate
noauthor_forest_nodate
noauthor_forests_nodate
noauthor_general_nodate
noauthor_hanging_nodate
noauthor_hyperparameters_nodate
noauthor_immediate_nodate
noauthor_increasing_nodate
noauthor_influence_nodate
noauthor_land-use_nodate
noauthor_major_nodate
noauthor_mixed_nodate
noauthor_multiscalar_nodate
noauthor_nitrogen_nodate
noauthor_no_nodate
noauthor_paper1_liang_nodate
noauthor_phenophases_nodate
noauthor_piecewisesem_nodate
noauthor_plant_nodate
noauthor_plant_nodate-1
noauthor_response_nodate
noauthor_rmarkdown-cheatsheet_nodate
noauthor_role_nodate
noauthor_sciencedirect.com_nodate
noauthor_summer_nodate
noauthor_suni_nodate
noauthor_tree_nodate
noauthor_underestimated_nodate
noauthor_what_nodate
nole_effects_2018
noormets_drought_2008
noormets_response_2010
noormets_response_2010-1
norby_co2_2010
norby_ecological_2011
norby_forest_2005
novick_increased_2012
nowak_elevated_2004
nowak_functional_2004
o_flash_2023
object_peseta_nodate
obrien_caution_2007
obrien_synthesis_2017
oconnor_biological_2014
ogle_quantifying_2015
oishi_sustained_2014
olano_satellite_2021
olivares-contreras_warming_2019
olsson_fertilization_2005
oren_chlorophyllnutrient_2011
oren_performance_1988
oren_performance_1988-1
oren_soil_2001
oren_survey_1999
otkin_assessing_2016
ouimette_carbon_2018
ovaskainen_quantitative_2016
owen_heat_1963
paillassa_when_2020
palmeirim_drivers_2021
palmroth_aboveground_2006
palmroth_nitrogen_2019
palmroth_nitrogen-addition_2014
pan_large_2011
pan_responses_2015
pan_responses_2018
papale_data_2012
papale_database_2012
papale_towards_2006
papier_invasive_2019
paquette_climate_2018
park_changes_2019
park_williams_temperature_2013
parker_rhizosphere_2020
parmesan_terrestrial_2022
parry_rubisco_2002
pastor_ecosystem_2017
pastorello_fluxnet2015_2020
pastorello_observational_2014
pataki_elevated_1998
pecchi_reviewing_2019
peltier_legacies_2019
peltier_temperature_2022
peltoniemi_factors_2006
peng_drought-induced_2011
peng_methane_2021
peng_satellite_2019
peng_wavelet_2020
penman_natural_1948
peters_increased_2018
peterson_observed_2014
peterson_twenty-five_2019
petter_how_2020
phillips_belowground_2016
phoenix_arctic_2022
piao_evaluation_2013
piao_interannual_2020
pickard_effects_2022
piedallu_soil_2013
pilegaard_field_2003
piper_role_2020
ponton_soil_2019
portner_ipcc_2022
poulter_contribution_2014
prendin_immediate_2020
pretzsch_modellierung_1992
pretzsch_zum_nodate
pritchard_fine_2008
pritchard_mycorrhizal_2008
probst_hyperparameters_2019
putalova_tree-ring_2018
qin_characterization_2008
r_core_team_r_2020
rafat_non-growing_2021
rambal_growth_2004
rannik_footprint_2012
rasanen2009predictive
rasanen2010data
rebmann_data_2012
reich_synergistic_2020
reichstein_climate_2013
reichstein_ecosystem_2002
reichstein_partitioning_2012
reichstein_reduction_2007
reichstein_severe_2002
reis_conversion_2020
ren_growth_2019
renne_soil_2019
rey_annual_2002
reyer_forest_2015
reyer_forest_2015-2
richardson_influence_2010
richardson_seasonal_2013
richardson_statistical_2005
richardson_uncertainty_2012
rinne_disjunct_2012
rita_impact_2020
robinson_terrestrial_2018
rodriguez-cardona_shifting_2022
rorato_tolerance_2018
rosas_dynamics_2013
rubio-cuadrado_differential_2021
rubio-cuadrado_impact_2021
ruiz-perez_effects_2020
running_continuous_2004
ryu_interannual_2008
saarnio_annual_nodate
safadi_advanced_2015
saito_empirical_2009
sanchez-salguero_what_2015
sanguesa-barreda_warmer_2021
sardans_long-term_2020
sawicka_fine-scale_2016
schafer_canopy_2011
schafer_exposure_2003
schafer_hydrologic_2002
schimel_flux_2019
schimel_terrestrial_1995
schlaepfer_climate_2017
schmid_measurements_2000
schmitz_responses_2019
schnabel_species_2021
schulte-uebbing_experimental_2022
schulte-uebbing_global-scale_2018
schumacher_improving_2004
schwalm_global_2017
schwalm_reduction_2012
schwartz_assessing_1993
schwartz_onset_2006
schweiger_plant_2022
schworer_model-data_2014
seabold_statsmodels_2010
seneviratne_trends_2017
sevanto_drought_2009
sevanto_phloem_2014
shi_effects_2018
shipley_aic_2013
slette_how_2019
smithwick_root_2013
song_growth_2021
song_influence_2019
song_nitrogen_2020
spawn_harmonized_2020
sperling_frost_2015
sperry_water_2002
staehr_global_2016
starr_carbon_2016
stefanon_heatwave_2012
steiner_aerosol-induced_2005
stephenson_comment_2011
sterba_concepts_1989
steudler_influence_1989
stocker_quantifying_2018
stoy_biosphere-atmosphere_2009
stoy_variability_2005
stull_introduction_2012
sturm_satellite_2022
sullivan_influence_2018
sulman_high_2016
sun_changes_2021
sun_direct_2018
sun_evaluating_2019
sun_impact_2014
sun_positive_2022
sun_seasonal_2006
sun_spatial_2018
suni_long-term_nodate
szabo_mapping_2019
tamm_nitrogen_1991
tamm_nitrogen_2012
tan_conversion_2020
tanja_air_2003
tariq_role_2019
tedeschi_soil_2006
teh_large_2011
tei_strong_2019
Tesing
teuling_contrasting_2010
thornthwaite_approach_1948
thum_spring_2009
tian_disaggregating_2021
tian_extending_2020
tian_modeling_2017
TiddlyMap!!
TiddlyWiki
tomasella_close_2019
tomasella_possible_2020
tong_carbon_2023
torngern_increases_2015
tramontana_predicting_2016
treseder_nitrogen_2008
trugman_tree_2018
turner_disturbance_2010
turschwell_interactive_2022
tyagi_flash_2022
tyree_hydraulic_1991
tyystjarvi_chapter_2013
ueyama_autumn_2014
ueyama_inferring_2020
ummenhofer_extreme_2017
urbanski_factors_2007
valentini_seasonal_1996
valiranta_warming_2021
van_der_molen_drought_2011
vandegehuchte_woody_2015
vanoni_drought_2016
vargas_multiscale_2010
verma_improving_2015
vesala_autumn_2010
vesala_eddy_2012
vetter_partitioning_2005
vicente-serrano_multiscalar_2010
villar-salvador_effect_2005
vitasse_contrasting_2019
vitasse_earlier_2014
vitasse_increase_2018
von_bromssen_toolbox_2021
von_buttlar_impacts_2018
vuichard_filling_2015
walker_comprehensive_2014
walker_decadal_2019
walter_ecological_2013
wang_biomass_2022
wang_carbon_2021
wang_carbon_2021-1
wang_carbon_2022
wang_combined_2023
wang_divergent_2022
wang_leaf_2022
wang_recent_2020
wang_seasonality_2019
wang_spatio-temporal_2008
ward_effects_2013
ward_hydraulic_2013
ward_warming_2013
waring_scaling_1995
warren_carbon_2015
way_greater_2010
wei_dual_2022
wei_forest_2018
wei_global_2017
weiss_data_nodate
welp_increasing_2016
wensel_tree_1987
wharton_climate_2016
wikipedia_soil_2022
wilby_sdsm_2002
wild_global_2009
wilkinson_rapid_2001
willmott1982some
wilson_multiyear_2016
wohlfahrt_eddy_2012
wolf_warm_2016
wright_ranger_2017
wright_worldwide_2004
wu_comparison_2010
wu_describing_2017
wu_global_2019
wu_increased_2022
wu_interannual_2012
wu_interannual_2013
xia_attributing_nodate
xia_exploring_2023
xiao_stomatal_2020
xie_contributions_2020
xing_highlevel_2022-1
xing_long_2019
xing_nonlinear_2022
xu_canopy_2020
xu_eddy_2016
xu_effects_2021
xu_heatwave_2020
xu_hyposensitive_2023
xu_increased_2019
xu_long-term_2019
xu_new_2019
xu_responses_2019
xu_seasonal_2020
xu_structural_2018
xu_tree-ring_2017
xu_trends_2016
xu_vegetation_2018
xudan_zhu_role_2022
yamori_effects_2010
yan_spring_2020
yan_variations_2022
yang_chlorophyll_2017
yang_controls_2019
yang_divergent_2019
yang_immediate_2019
yang_role_nodate
yao_imbalance_2022
yatskov_carbon_2019
yi_climate_2010
yousefpour_simulation_2019
yu_1_nodate
yu_global_2017
yu_stabilization_2019
yu_towards_2020
yuan_few_2021
yue_contribution_2020
zaehle_carbon_2011
zaehle_evaluation_2014
zang_standardized_2020
zeng_effects_2020
zha_interannual_2010
zhang_aboveground_2019
zhang_atmospheric_2020
zhang_canopy_2016
zhang_canopy_2016-1
zhang_conifer_2020
zhang_direct_2022
zhang_effects_2020
zhang_fisher_2022
zhang_impacts_2019
zhang_improving_2022
zhang_intensive_2022
zhang_monitoring_2019
zhang_nitrogen_2020
zhang_nitrogen_2021
zhang_reduction_2020
zhang_satellite_nodate
zhang_spatial_2023
zhang_uncertainty_2012
ZHANG2006176
zhao_drought-induced_2010
zhao_long-term_2022
zhao_seasonal_2019
zheng_effects_2021
zhong_nitrogen_2019
zhou_biotic_2019
zhou_comparative_2019
zhou_cumulative_2022
zhou_different_2014
zhou_examining_2019
zhou_explaining_2016
zhou_projected_2023
zhou_regionalized_nodate
zhou_relationship_2019
zhou_response_2013
zhou_response_2017
zhou_robustness_2017
zhou_soil_2019
zhou_spatial_2017
zhu_assessment_2021
zhu_assessment_2021-1
zhu_elevated_2017
zhu_forest_2019
zielis_nep_2014
zohner_increased_2019
zohner_late-spring_2020
zscheischler_extreme_2014
zscheischler_few_2014
墨屉
欢迎